SU1086444A1 - Function generator - Google Patents

Abstract

FUNCTIONAL G1REOBRAZOVATOL, sotserzhashyy first tsi4 fereshshapny usipitep inverting vhots which is connected with the first vyvo kw first and second scaling resistors and neinvertirutoshy vhots - with the first vyvotsami third and fourth scaling resistors, the second terminals of the first and third scaling resistors are respective inputs of the converter, and the second digital spine, invert- ing which input is connected to the output of the nonlinear element in the first output of the fifth scale resolution, This is due to the fact that, in order to increase the accuracy, it contains two frequency-dependent two-terminal networks, the second output of the fifth scale resistor is connected to the output of the second differential amplifier, and the second outputs of the nonlinear element, as well as the second and fourth scale resistors are connected respectively to the output first dg}) fermenter usniltel, to the potential-zero bus to the output of the second differential system, frequency-dependent coupling. NIKIs are connected in series between the output of the first digital amplifier and the zero-performance bus, and their common output is connected to the non-inserting input of the differential accelerator, the output of the first differential amplifier is the output of the (%) az9watel.

Description

Technique and can be applied in the design of converters for obtaining non-linear relationships between inbound and outbound signals. Functional transformations of heat are known, containing a differential differentiation, which has a negteyny element defining the characteristics of the conversions. The quality of one method depends on the characteristics of the elements used and on the off-line communication. An increase in accuracy of the conversion, especially at high frequencies, is sometimes due to the joint insertion of several amplifiers of the 3h-3. The disadvantage of such converters is the relatively low accuracy. Most closely related to the invention is a functional converter containing a first differential device, connected by an inverting input to the first input and third resistors, and a non-inverting input signal to the second input and to the fourth relay, respectively, the second differential amplifier, whose backend input is connected to a common bus, and nonlinear node 2j is connected to the inverting input. Such a converter also has not sufficiently high accuracy. The aim of the invention is to improve accuracy. The goal is achieved by the fact that the functional converter containing the first differential amplifier, the inverting input of which is connected to the first terminals of the first and second large-scale resistors, and the non-inverting input to the first terminals of the third and fourth large-scale resistors, the second terminals of the first B of the third large-scale resistors are the corresponding converter modes, and a second differential amplifier, the inverting input of which is connected to the first non-linear element terminal and to the first The output pin of the fifth scale resistor contains two partial volts of the two-port network, with the second pin of the fifth scale resistor connected to the output of the second ziff & decoding amplifier, and the second terminals of the nonlinear element and the second and fourth scale resistor are connected respectively to the flow switch , to the bus of zero potency, to the output of the second digital alternating frequency-dependent two-pole Iffiiffl are connected in succession between the output of the first differential amplifier and the bus potential, and kx is the common lead to the non-inverting input of the second digital amplifier, the output of the first digital amplifier is the output of the converter. The drawing shows the scheme of the proposed functional transform. The converter contains the second digital accelerator 1, - the fifth scale resistor 2, the nonlinear element 3, the first differential accelerator 4, the first scale resiogor 5, the switch to the input 6, the second scale resistor 7, the bus 8 of zero potential, the third scale r & 9, connected to the input 1O, the fourth large-scale resistor 11 and the frequency-dependent two-terminal 12 and 13. The functional converter works in a special way. Differential amplifiers 1 and 4 are covered by negative feedback through resx1 or 11 and nonlinear element 3. The voltages between the inverting and non-inverting inputs of amplifiers 1 and 4 are narrow to zero, denoted by 6 and 4, respectively. Let the resistances of resistors 2.5, 7.9 and 11 have the same values of R, T5. R2. The voltage at the inverting input of a 4 RS differential amplifier and, where U is the input voltage 6, the voltage at the other input of the amplifier 4, So 5ShK R. This voltage drop on both resistors is the same U-1-u and -s and UZ - output voltage differential voltage 1; input voltage 10. Consequently, U3-2U2-u ,,. (4)

Claims (1)

FUNCTIONAL G1REOB-. A DEVELOPER containing the first qi4> ferenpial amplifier, the inverting input of which is connected to the first terminals of the first and second large-scale resistors, and the non-inverting input is connected to the first terminals of the third and fourth large-scale resistors, the second conclusions of the first and third large-scale resistors are the corresponding input of which is connected to the first the output of the nonlinear element and the first output of the fifth large-scale resistor, characterized in that, with a circuit for increasing accuracy, it contains two frequency-dependent bipolar ka, and the second output of the fifth scale resistor is connected to the output of the second differential amplifier, and the second outputs of the nonlinear element, as well as the second and fourth scale resistors are connected respectively to the output of the body, to the output of the second differential amplifier, nicks are connected in series between the output of the first differential amplifier and the bus zero potential, and their common output is connected to the non-inverting input of the second differential amplifier, the output of the first differential first w)> Foot usipishine zero potential and a frequency-dependent tsvuhpopyuo.